Wavelength-selective optical add/drop using tilting micro-mirrors

US 5,960,133 A
Filed: 01/27/1998
Issued: 09/28/1999
Est. Priority Date: 01/27/1998
Status: Expired due to Fees

First Claim

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1. An optical switching system, comprising:

at least four optical beams;

a wavelength-dispersive medium dispersing wavelength components of said at least four optical beams incident thereupon into respective wavelength-dispersed sub-beams;

an array of tiltable mirrors having reflective surfaces angularly movable between a first position and a second position; and

a lens focusing said sub-beams of a respective wavelength upon a respective one of said mirrors;

wherein a respective one of said mirrors;

in said first position, optically couples a first one to a second one of said respective sub-beams; and

in said second position, optically couples said first one to a third one of said respective sub-beams and optically couples said second one to a fourth one of said respective sub-beams.

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Abstract

An optical switch particularly usable as a wavelength-division add/drop multiplexer (WADM) in a multi-wavelength communication system. Four multi-wavelength beams optically coupled to the input, output, add, and drop channels are arranged in parallel in a rectangular array and are incident upon a diffraction grating. The grating operating in one direction disperses the beams into their wavelength components and operating in the other direction recombines the wavelength components into a multi-wavelength beam. A lens focuses the components of the beams having a particular wavelength upon one of an array of tiltable micro-mirrors integrated on a silicon substrate. In one position, the mirror for a particular wavelength reflects that wavelength component from the input beam back to the output beam. In a second position, that mirror reflects that wavelength component from the input beam back to the drop beam and reflects that same wavelength component from the add beam back to the output beam. The same optics can be used for a second set of beams which are switched in synchronism with the first set. The array of mirrors can be fabricated to be tiltable to more than two positions so that the input beam can be selectively coupled to either the output beam or one of at least two drop beams while the output beam is correspondingly selectively coupled to either the input beam or one of at least two add beams.

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15 Claims

1. An optical switching system, comprising:
- at least four optical beams;
  
  a wavelength-dispersive medium dispersing wavelength components of said at least four optical beams incident thereupon into respective wavelength-dispersed sub-beams;
  
  an array of tiltable mirrors having reflective surfaces angularly movable between a first position and a second position; and
  
  a lens focusing said sub-beams of a respective wavelength upon a respective one of said mirrors;
  
  wherein a respective one of said mirrors;
  
  in said first position, optically couples a first one to a second one of said respective sub-beams; and
  
  in said second position, optically couples said first one to a third one of said respective sub-beams and optically couples said second one to a fourth one of said respective sub-beams.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The switching system of claim 1, wherein said at least four optical beams consists of four generally parallel optical beams arranged in a parallelepipedal arrangement.
  - 3. The switching system of claim 2, wherein said parallelepipedal arrangement is a rectangular arrangement.
  - 4. The switching system of claim 1, further comprising a multi-wavelength optical communications network having a switching node, wherein of said four optical beams:
    - a first one corresponding to said first sub-beams is connected to an input port of said switching node;
      
      a second one corresponding to said second sub-beams is connected to an output port of said switching node;
      
      a third one corresponding to said third sub-beams is connected to a drop port of said switching node; and
      
      a fourth one corresponding to said fourth sub-beams is connected to an add port of said switching node.
  - 5. The switching system of claim 1, wherein said at least four optical beams comprise eight optical beams.
  - 6. The switching system of claim 5, wherein said eight optical beams are arranged in a rectangular arrangement.
  - 7. The switching system of claim 5, further comprising a multi-wavelength optical communications network having two counter-rotating optical paths and a switching node connected to said two optical paths, wherein of said optical beams:
    - first and fifth ones corresponding to said first sub-beams are connected to respective input ports of said switching node connected respectively to said first and second optical paths;
      
      second and sixth ones corresponding to said second sub-beams are connected to respective output ports of said switching node connected respectively to said first and second optical paths;
      
      third and seventh ones corresponding to said third sub-beams are connected to respective drop ports of said switching node connected respectively to said first and second optical paths; and
      
      fourth and eighth ones corresponding to said fourth sub-beams are connected to respective add ports of said switching node connected respectively to said first and second optical paths.
  - 8. The switching system of claim 1,wherein said at least four optical beams comprise six optical beams;
    - wherein said mirrors in said array are angularly movable between said first position, said second position, and a third position; and
      
      wherein said respective one of said mirrors in said third position optically couples said first one to a fifth one of said respective sub-beams and optically couples said second one to a sixth one of said respective sub-beams.
  - 9. The switching system of claim 8, wherein said six beams are arranged in two linearly arranged triplets, spacings between said beams in each of said triplets being non-equal.
  - 10. The switching system of claim 1, wherein said mirrors are integrated in a silicon substrate.

11. An optical switching system, comprising:
- three optical beams;
  
  a wavelength-dispersive medium dispersing wavelength components of said three optical beams incident thereupon into respective wavelength-dispersed sub-beams;
  
  an array of tiltable mirrors having reflective surfaces angularly movable between a first position, a second position, and a third position; and
  
  a lens focusing said sub-beams of a respective wavelength upon a respective one of said mirrors;
  
  wherein a respective one of said mirrors;
  
  in said first position, optically reflects a signal received from a first one of said respective sub-beams back to said first one of said respective sub-beams;
  
  in said second position, optically couples said first one to a second one of said respective sub-beams; and
  
  in said third position, optically couples said first one to a third one of said respective sub-beams.
- View Dependent Claims (12, 13)
- - 12. The switching system of claim 11, wherein said three beams are propagating generally in parallel within a plane.
  - 13. The switching system of claim 12, wherein said beams are unequally spaced in said plane.

14. A communications network, comprising a first optical path including optical fiber and a switching node including an optical switch comprising:
- a first optical beam receiving an input signal from said first optical path;
  
  a second optical beam transmitting output signal to said first optical path;
  
  a third optical beam for selectively receiving said input signal from said first optical path and transmitting it to a third optical path;
  
  a fourth optical beam for selectively receiving an add signal from a fourth optical path and transmitting it to said first optical path;
  
  a wavelength-dispersive medium dispersing wavelength components of said four optical beams incident thereupon into respective wavelength-dispersed sub-beams;
  
  an array of tiltable mirrors having reflective surfaces angularly movable between a first position and a second position; and
  
  a lens focusing said sub-beams of a respective wavelength upon a respective one of said mirrors;
  
  wherein a respective one of said mirrors;
  
  in said first position, optically couples a first one to a second one of said respective sub-beams; and
  
  in said second position, optically couples said first one to a third one of said respective sub-beams and optically couples said second one to a fourth one of said respective sub-beams.

15. A switching method, comprising the steps of:
- for a first, a second, a third, and a fourth beam, wavelength dispersing each of said beams into a plurality of corresponding first, second, third, and fourth sub-beams of different wavelengths;
  
  directing each of said sub-beams having a respective wavelength toward a respective one of a plurality of mirrors;
  
  selectively tilting each of said mirrors between two positions,wherein, in said first position, said respective mirror optically couples said respective first and second sub-beams, andwherein, in said second position, said respective mirror optically couples said respective first and third sub-beams and optically couples said respective second and fourth sub-beams.

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Litigation Campaign Assessment

Current Assignee
Tellium, Inc. (DZS, Inc.)
Original Assignee
Tellium, Inc. (DZS, Inc.)
Inventors
Tomlinson, W. John
Primary Examiner(s)
Ullah, Akm E.

Application Number

US09/013,842
Time in Patent Office

609 Days
Field of Search

385/15-18, 385/24, 385/31, 385/27, 385/33-35, 385/147
US Class Current

385/18
CPC Class Codes

G02B 6/2931   Diffractive element operati...

H04J 14/0212   using optical switches or w...

H04Q 11/0005   Switch and router aspects

H04Q 2011/0022   using fibre gratings

H04Q 2011/0026   using free space propagatio...

Wavelength-selective optical add/drop using tilting micro-mirrors

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Abstract

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Wavelength-selective optical add/drop using tilting micro-mirrors

First Claim

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Abstract

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15 Claims

Specification

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